Popcorn dispenser employing air entrainment means for corn transfer



Feb. 9, 1954 E, E, MARTIN 2,668,636

POPCORN DISPENSER EMPLOYING AIR ENTRAINMENT MEANS FOR CORN TRANSFER Flled Aug. 28, 1948 5 SheetS-Sheet l IIIHMIIIHDP f9.5. i! u I a 29 ,SAV/1110111111111. h IN L l .if 14R/VESTE MART/N,

Feb 9, 1954 E. E. MARTIN 2,668,636

POPCORN DISPENSER EMPLOYING AIR ENTRAINMENT MEANS FOR CORN TRANSFER Filed Aug. 28, 1948 3 Sheets-Sheet 2 IN V EN TOR.

f4/MEST Ef MART/N Feb. 9, 1954 E. E. MARTIN POPCORN DISPENSER EMPLOYING AIR ENTRAINMENT MEANS FOR CORN TRANSFER Filed' Aug. 28, 194e 3 Sheets-Sheet 3 ffy. a.

197" TORNEY.

Patented Feb. 9, 1954 POPCORN DISPENSER EMPLOYING AIR EN- TRAINMENT MEANS FOR CORN TRANSFER Earnest E. Martin, Pasadena, Calif., assignor to Sidney Fischgrund, John E. Beall, and Willis E. Clark, Los Angeles, Calif.

Application August 28, 1948, Serial No. 46,597

21 Claims. 1

This invention relates generally to improved popcorn vending equipment adaptable for coin control to dispense during periodic operation, a measured or predetermined quantity of corn to be taken into a bag or other appropriate container. Particularly the invention is directed to novel popcorn and dispensing equipment in which the corn is air-entrained for transference from one location to another and is rendered attractively visible in a state of agitation during the course of such transference.

In its preferred embodiment, the invention serves as a popcorn dispensing machine operable to deliver a predetermined quantity of corn at each operation by creating, in response tov coincontrolled actuation, a temporary ow of air to transfer the corn from a supply chamber to a measuring container. Thus the coin control may function to start in operation a blower' which creates and temporarily maintains a corn-entraining ow of air during a period suiiicient for transference of the quantity to be dispensed.

To measure exactly the quantity of corn to be delivered at each operation, the machine may be equipped with a collection chamber of predetermined capacity adapted to receive the transferred corn but to retain only the desired amount, preferably returning any excess to the storage chamber in which it had been initially contained. The collection chamber may be provided with dispensing means permitting the operato-r to re.- lease the transferred corn into a suitable container, such as the usual popcorn bag. To assure accuracy of measurement, the dispensing means are preferably operable only after the transfer of corn to the collection chamber has been completed.

A delivery conduit or tube may be employed to guide the stream of air and entrained corn toward the delivery location, This tube may be transparent and at least partially visible to the operator to permit viewing of the corn in motion.

A particular advantage of the invention lies in the provision of novel means for removing from the machine virtually all of the undesirable elements normally found in popcorn to prevent their Adelivery to the operator. This result may be attained by a combination of centrifugal and gravity separation, whereby the relatively heavy unpopped grains are permitted to fall downwardly and out of the storage chamber, preferably through a screen, and the lighter weight fragments are removed with an air stream and then .centrifugally separated by imparting a swirling motion to the air.

The invention also contemplates the use of means for ejecting a bag from within the machine to an accessible location, preferably in response to operation of a coin controlled mechanism. Such ejection may be effected in a novel manner assuring positive action while preventing damage to thev bag during the ejecting process. To assure the smooth and. relatively slow motion necessary to prevent bag injury, the ejecting mechanism is preferably operated by apparatus responsive to changes in speed of operation of the unit creating the corn transferring air stream. This speed responsive mechanism may comprise a centrifugal device rotatable with a blower and operable to slowly actuate the ejecting mechamsm upon increase of blower speed.

The above and further features and objects of the present invention will be better understood from the following detailed description of the typical embodiment illustrated in the accompanying drawings, in which:

Fig. 1 is a perspective view of a coin operated corn dispensing machine;

Fig. 2 is a fragmentary vertical section through the machine of Fig. 1;

Fig. 3 is a vertical section taken on line 3-3 of Fig. 2;

Fig. 4 is a horizontal section taken on line 4 4 of Fig. 2;

Fig. 5 is an enlarged fragmentary vertical section through the upper part of the centrifugal separator and the lower part of the popcorn storage chamber;

Fig. 6 is a fragmentary side view of the coin responsive mechanism, partly in section;

Fig. 7 is a fragmentary horizontal section taken on line '1 -'I of Fig. 6;

Fig. 8 is a fragmentary plan view of the bag ejecting mechanism;

Fig. 9 is a fragmentary vertical section taken on line 9 9 of Fig. 8; and

Fig. 10` is a schematic representation of the electrical control system.

Referring first to Fig. 1, the corn dispensing machine there illustrated is contained within a substantially rectangular housing I0 having a transparent central dome II, which may be secured to the top of the housing by straps I2. The front of the housing contains a narrow bag ejection slot I3 and a corn delivery alcove I4 having a bottom screen I5 and a delivery spout I6. Coin slot I1 is adapted for the reception of `the particular type coin required to set the apparatus in operation, and has associated with it the usual coin return button I8 and opening I9.

Push button 20 is provided for releasing a measured quantity of corn from the spout after a coin has been inserted and an internal measuring process, later to be described, has been completed. The lower portion of the machine may be open at one side, as at 2 I, to provide a freely accessibl'eechamber for4 storage.v of extra corn or bags.

Referring now to the other drawings, and

particularly to Figs. 2, 3 and 4, the interior of "I the machine is divided into-.upper and lower'. chambers by horizontal partitiorrya-.which may 1 be supported by angle irons I I9, suitably secured to the housing wall. The operating-frnechanisml is contained above the partition, leaving'thelowerr chamber unoccupied and free for use as an aux# iliary storage space. The deviceL-comprisesgen: erally storage chamber 22, collection chamber 23 together with the associated dispensing appae ratus, delivery tube 2&:leading from the lower portion ofthe .storagecharnber to the collection chamber, centrifugal; separator.A 25;. coin. responsive :controle-mechanism .2 8;. bag .ejecting mechanismfZl-,and .blower :unit .28 @for creating acorn transferring. lflow-'of l`air through. the separator.,

intoithe -lower portion. of fthe storage chamber, andsaipwardly throughetubeiZt toward the. collectionfchamben Storagewchamber 22;! occupying much of `the spaceabove.the partition, isadapted tocontain 2 asubstantialquantity ofthecorn vto be dispensed. Itsrmajor-iextent .is .rectangular in` -horizontal sectioncand' is located 1I1earfthe rear and right vhand sides .=of the machinafbeing vspaced. fromv theleft hand-iside (seelligf 2), from the front-.of the machine (see -l1"ig";.;3),.v and f1fom-.the-.partition,. to aiordladequateroom for the=various `mechanical andJ electrical .units .required for operation of. the machinal Angularlydisposed.walls..Ilnand 21. enlarge the sectional area offlthefchamber near the top to approximately vthesizeof. the-machine itselfl'ffwith-ithe top IZZ 'of the machine serving.l as top also for the storagechamber.; The chamber converges=downward1y1at -36 5to= acircular .bottoni opening 3i. lScreen 32 is disposed.acrossfopening 3 t"between-retaining.flanges :.i M5 Aland. fserves to separate the small and relatively heavy unpopped grains 4eby#'permi-tti-ngtlienl'fto' Afall downwardly while retaining the popped corn. Tube: dniay befiared Slightly outwardly at-its-flower extremity i305 and: is spaced ash'ortfclistance abovev opening 341 .1in thescl-lambert:` Theftubefextends uptsfardly at a slight angle, as seen in Fig.- 3.,..andnnalcesaa return-bend vto project Y'downwardly Jover collection chamber v23."-

Thecollectionchamber extends through and. is secured within opening Jit in slopingfrontxwall I2 Il of the storage chamber, :andsisr therefore :disposed partially within and partially outsidefofv the storage chamber.. The collection chamber. is open at the top for the receptioniof .corn andconverges downwardly to a relatively narrow throat 33, which is normallysclosed: byxdoor The doorispivotedv at 35. .and "controlled byzexternal amr '3Sxiwhichfis1 'connected' at.3'l to .ar-mature 38 associated 'withry solenoid 39.5

Blower 1.unit .2 3` v'comprises .a .centrifugal blower 40,m'ounted uponxpar-tition 2&3y asgby bolts-43, and =.a 'driving motor-43;, secured to .the partition upper Aportion Vof storage; chamber.. 2 2 through intake tube 124-, and*` .discharges .it substantially Atangentiallyintc .centrifugal separator .25 at. e5. The intake air. enteringtube Mrcarries with it,'.or

removaLby the separator,. any. small shell frag.- l

4 ments and other light weight particles that have been intermingled with the corn.

The separator has an upper cylindrical portion 46 for directing the tangentially injected air stream in a circular path, beneath which it presents a downwardly converging frusto-conical portionpllI-i.y The :light-i'weightaparticles |35 removed ronI-'the `storage lchamberare'urged outwardly by centrifugal force to accumulate along lthe separator wall and fall toward discharge tube 48; Thelowerend-of tube 48 is normally closed by door 4l9','=whichisV hinged at 5B and retained in closed position by latch 5I. Horizontal wall 52 forms -a topfforth'e separator, permitting air escape# only through central opening 53, within which vertical tube 54 is secured, as by welding at 55.1 Tubewcommunicates upwardly with depending tube 56 from the storage chamber.

Bag-f ejecting mechanism 21 is operated by motor 43 in a novel manner resulting in smooth relatively slow'ejection astheimotorand blower accelerate. The .ejecting apparatus comprisessa' speed responsive .element,; generally' indicatedfat. 51, operable to .actuate mechanical ejectingclee ment 58 through'flexiblefrod .16.. 'lhespeedyre-av sponsive .element includes ay shafts@ rotatablyzre-A tained -between:,bearing .'6I in. support S2 and bearing 63 in `support 6drA Supports.62..andat4 are suitably secured to. partition 29,*as by bolts: I24 and vI2&'a,.,respectiv.ely;` Shaft' fis :driven by the motor through pulleytabeltrl..and pulley. 61. Sleeve 69 is aXiallymovable-alongthe shaft and normally spaced. assillustrated-from sleeve 68, which is rigidly secured ,to the shait. Resile'. ient straps 10'extend between these sleeves :and carry weights 1I at their mid-points: Sleeve contains an annular external recess 12,. within which rollers 13 carried .bygcontrolarm-Mere receivable. Arm 14 is pivotallytiattached:tosupf port 64 at 15and at itsupper end to flexible. control rod 16, whose guiding cable59fis clamped to support 64 at. 11.

Bags I32 `are vstacked inxhorizontal position withinA rectangular :compartment 'I8 (see --Figs. 8 and Y9) ,and are acarried'by plate-19, which is urged upwardly .by/springs' 80; Upward v.move-f ment. of the bags islimitedrbyside'flanges|36 which extendv inwardly at the top of compartment 18 and retain vthe uppermost bagl opposite -slot I3. The vupperendof controlfrod--cable15S/is secured by,screw1clamp8lto support 32 .which extends .outwardly fromv the bag chamber. Lever 83 is pivotally` securedat-84 .to-,control rodsr'i and is pivotalfly retained 1bysupport82 .at .85. Ejector arm 86 is .pivotedatothe -upper end4 of lever 83 Vat 81 and.- presents agterminal downwardly offset ejecting finger t8 for successively engaging the bottom .-folds.on-thefvariouszbags to move the bags out 'through-.slotII-i to the-dotted line position. of Fig. 9.A

Coin. responsive mechanism: 26 (see. Fig.- 6)., presents a slot I1 from-which.aninsertedcoin passes to'coin selector 891. A proper coinpasses downwardly through passageway AElitto momen.- tarilybrdge thecontacts. of'xswitch Bi .andthen fall into coinv box 92... If coinreturn buttonI is operated or the: .coin an .improper one, it returns. through passageway 93 to opening I 9` 'for recovery by the operator. Coinblock solenoid 94 is energized during .operation of. the .blower to urge armature 95 into blocking relation with' the coin slotl and therebyprevent the insertion of another coin while a delivery "is'being, made.

Inoperation, a coin |09. inserted at.l1- 'momen'- tarily bridges the gap between 1 the :contacts of coin switch 9| to simultaneously energize. coil 96 of relay |3|, blower motor 43, and coin block solenoid 94. Referring to Fig. 10, the circuit to the relay coil comprises lines 91, 98 and 99, coin |09, lines |00 and |0|, and arm |02 of timer ||4. The motor is energized through lines |03, |04, |05, 98 and 99, coin |09, lines |00 and |0|, and timer arm |02. Coin block solenoid 94 is in a circuit including lines |03, |05, |01, |08 and 99, coin |09, lines |00 and |0l, and arm |02. Thus, immediately upon insertion of a coin, the blower is set in operation, armature 95 blocks the coin pasageway against insertion of another coin, and relay armature ||0 is moved to the right.

Normally, relay armature I0 and contact arm ||2 are in the position of Fig. l0, in which the contact arm closes the circuit across contacts However, when the solenoid is energized, upon insertion of a coin, the armature is urged to the right to cause arm ||2 to close contacts ||3. Since coin switch 9| is connected across contacts I3, the closing of these two contacts by arm ||2 serves to by-pass the coin switch and maintain the circuits to the motor, coin block and relay coil closed, even after the coin has passed the coin switch. These three circuits then remain closed until arm |02 of timer |4 moves to the open position, shown in broken lines.

The blower draws air through intake 44 from the upper part of storage chamber 22 and injects it tangentially into separator 25 where any shell fragments or other small particles initially entrained in the air are separated and fall downwardly for removal through tube 49. After the air has made several revolutions in the separator, it passes upwardly through tubes 54 and 56, and screen 32, into the storage chamber. The air stream is then picked up by depending mouth of delivery tube 24 to be directed through the tube to the collection chamber. In passing between screen 32 and the mouth of the delivery tube, the air entrains some of the popped corn at the bottom of the storage chamber to carry it through the tube into the collection chamber. Inasmuch as tube 24 and dome are both transparent, this movement of the corn can be seen by the operator and thus produce an unusual visual effect.

Timer lid is normally closed but designed to open the circuits to the blower, coin block and relay coil after the motor and blower have been in operation for a predetermined length of time. This operating period is sufficient in duration for approximately one Ibag full of corn to be carried upwardly through tube 24 to the collection chamber. Exact measurement is effected by the collection chamber, which has capacity to retain exactly one bag full of corn, any excess falling over its sides and back into the pile of corn within the storage chamber.

As the blower accelerates, upon insertion of a coin, speed responsive element 51 is rotated by the motor through belt 66 to urge weights 1| outwardly under the iniiuence of centrifugal force. Such outward movement of the weights moves sleeve 69 toward sleeve 68 to pvot arm 14 about point 15 and thus -move flexible control rod 16 longitudinally within cable 59. The control rod, in turn, pivots lever 83 about point 85 to move arm 86 forwardly and eject the top bag by engagement of its bottom fold |33. Because ejector arm 86 moves only as rapidly as the motor and blower accelerate, the ejecting motion is sumciently gentle to assure that no injury to lthe bag can result.

The operator removes the ejected bag, opens it, places it under spout I6 which is an extension of collection chamber 23, and presses button 20. This closes the circuit to solenoid 39- (see Fig. 10) through lines |03, |06, ||5, ||6 and ||1, arm I2, and line I8, to move armature 38, pivot arm 36, and thereby open door 34 to permit the corn to fall downwardly into the bag. Any corn which misses the bag falls through screen l5, chute |34 and opening |35 in the partition, into the bottom portion of the machine housing from which it may be removed.

Since Contact arm ||2 is included in the circuit to solenoid 39, that circuit cannot be closed while the arm is in the rightward position. Thus, the corn cannot be released from collection chamber 23 during operation of the blower. If this were not the-case, an operator could obtain all or the corn which the blower transfers, and the excess over one bag would not be returned to the storage chamber.

I claim:

1. A popcorn dispenser comprising a housing having a transparent wall, a storage chamber within the housing for containing popcorn to be dispensed, an overflow collection chamber within the housing adapted to contain a predetermined quantity of popcorn and to overflow downwardly any corn received in excess of said quantity, means for creating a flow of air in the housing, means for entraining corn from the storage chamber in said ilow of air, means directing the cern thus entrained along the inside of said transparent wall within sight from the outside of the housing and then into the collection chamber, coin responsive control means operable to energize said ow creating means, means for automatically deenergizing said ilow creating means after its energization for a period suilicient to fill the collection chamber with corn and means for dispensing the corn from the collection chamber.

2. A popcorn dispenser comprising a housing having a transparent wall, a storage chamber within the housing for containing popcorn to be dispensed, an overflow collection chamber within the housing adapted to contain a predetermined quantity of popcorn and to overflow downwardly any corn received in excess of said quantity, means for creating a flow of air in the housing, means for entraining corn from the storage chamber in said iiow of air, means directing the corn thus entrained along the inside of said transparent wall into the collection chamber, means within the housing for receiving a supply of containers, means for ejecting a single container from said supply, coin responsive control means operable to energize said ow creating and said container ejecting means, means for automatically deenergizing said iiow creating means and said container ejecting means after a period sufficient to iill the collection chamber with corn and suiicient to eject one container, and means for dispensing the corn from the collection chamber to be received in the ejected container.

, 3. A popcorn dispenser comprising a housing having a dome with a transparent wall, a storage chamber within the housing for containing pop- -corn to be dispensed, an overow collection v"chamber within the housing adapted to contain a predetermined quantity of popcorn and to overflow downwardly any corn received in excess of said quantity, means for creating a iow of air upwardly within the housing and toward the dome, means for entraining corn from the storage ine the-icorntthu'sf' entraine `:along:ei-,lie:inside:oit,

tnearansparent-fdcme wit ghtfronritne out: side'eof thelhousingandthe intofsaidfcollectiorr chambenricontrclfmeans @pei-abletoienergizesaid rlo'wi creating means ffupoir receptie'rrfcxtr ai-coin means for automatically;derenergizin safictbw creating means Baftr-ii'tsz: energization ffr rio'd sdicientto'nll :the collection-'chamber withy com: annimeansfifersdispesing the'fcern-:ifromsaid collection chamber.

4;* Axpopcrnfdispenser comprising; ai housing having a 'dome' with a-transparentfwallf, 1 a storage' chamber within7 the ih'os'ingifor containing -p'op-v cornhto be dispensed-,vn an overowfcollection chamber withinv the housingradaptedi tol contain' a predeterm'inedquantity-of.popcernfand'toover` flow ldownwardly; any; corn-received= fin-excess ofsaid fquantity; means-for -creatingsai flow` of air upwardly within the housing andwtowardethe dome, means for entraining corn from the-storage chamber inf/said--fow ofwair-:to vpass-:upwardly therewith toward therdome,:meansfffor directing the V-corn thus entrained-along- .the `inside of the transparent domewithin sight lfi-'omthe-outside of `the `housingand thong-into saidrcolleetion chamber; means' within-the--housingaora'eceiving a supply 'of' containersfmeansfor ejecting'arsingle container from-said.supply,-4 'cein responsivecon'- trolwm'eans operable'fto energizeona period' and then de-energizefsaid-fflow creating: means sand said container ejecti'ngmeanswand means lfor, dispensing the -cornfromfthe collection chamber to :be received yby fthe.feieetedfV containeny 5l yA vpopcornsdispenser comprising-,a -housing hai/'ingaanl elongatedtransparent dome extending horizontally alongfits -uppersurfacey a storage chamber within the-housing afor'containingpopcorn towbe7 dispensed,..-an\ overflow collection chamber within. theahousingeat a rst end of the dome adapted to contain a predetermined quantity ofpopcornandopening intothe storage chamber to fioverow downwardlyv-any corn- -re ceivedVA f in excess# of 1saidquantityf means dor creating. a ow-of-fair'npwardl'y within the housingfand toward the other endof thedomeVmeans for entraining :corn-'from-the storage chamber. lin said now of air to pass upwardl(` threwi'th'toward themdome, V.means fordirecting: the. cornV uth'us Ventrained generally horizontally alongtlie inside of uthe :transparentl dome .toward vsaid `rstlend thereofwithin-sight from the outsideof the housing: and.then'A into said collection chamber., coin responsive means. controlling the ldelivery .of ucorn to Ythe collection chamber by said w creating means, and .means for dispensing .the cornfroni said collectin chamber.

6. A popcorn dispenser comprising; a' hbsig having a -transparent'wall', laV s'torage`chanib within the housingfor containingppcor'n 'to y'be dispensed, a coll'ctioncharnberwithin'the 'hcnis`'v ing',I means for' creating a`ow'of *"airinitli housing, V'means' `foi" 'entrainn'g '.CI'TI' rvfrr'nl 'the storage chamberin saidow ofairi'nean's for directing the. cornv thus entrained 'alon'gtlie inside of said. transparent vs/allinV sight l'of lan' operator of--theu dispenser .andlthen .into the collection cham-bencoinLresponsi-Ve control-.means operable to energize saidnow creating-fine'ansy means Ofor automatically de-energizing said .iow-l creating meansfafter its energization--for aperiodsufcient tof fill the coilectionfhamberfwithffcorn, ,and meansior'2dispensingl shecorifromtthe collection chambelf.

CTI

7-.- Popcorn.4 dispensingapparatus fcomprisingta strl'eamo fbercarried' `fromsaiel"seconddonation" intee tlchamber, meansfor holding a fsuppl'ylofcontainers; nieanszresponsivefto a changesinfthe spedfof operationioif said blower-tofeject aecomtain from saidfspply; and means torfdispensing` the-*crnsfr'omf said chambertoI-befreceiveddnzsaidlejected containeri .Y

`8:2 Popcorntransferring-apparatusscomprisingf a collection chambers at one flotation;affilclewer` intermittently operable f-tof 'fcreate Jaflow rofeair frenrfa second ilocaticn ftowardsai-df-chamber; a centrifugalecontrol:deviceifrotatable upon Palmera@v tiorrfl"-ofs=.said"blowernandhaving aawei-ght ont-t wardly displaceable Nin-response fto suchfrotationfrP means#ifor.L entrainin-g popped .fcorn nin =the -airlV stream toi bec-carried ffron lsaid lseconddonation intorth'eichamb er,= means fforilh'oldi-ng fa "supplyqofv containers, meansy operable' to :ej ect-a"'containenv from? said supply .in-response 'toPoutWard moves mentfof *the '.'Weight in saidfcontimldevice,` and` means-ifor'dispensingftllecornromfsaidchamber` to,` lne-"received fn saidfcontai-ner;I

9. A popcorn'di'spenser comprisinganousingpastorage chamber fwithin'ethes h'ousingli-for A containingcpopcorn 'to- Ibe dispensed-,sani foVer-nowfcolleczw tionfchambercarvriedbythe housingiadapteditof contain-fa 'predetermined' quantity. ,of 'popcorniandtoi-"overflow l downwardly; any corn-freceivedn-in excess ofsaidquantity; means foricreatin-g a newv offiair nf/the fhousingii-mcans 4for 4entrainingrcorn frdmtlie'storageChambertin said flowfof-iairfand then' directing thea entrainedIJ corn jinto?l the @collectioir'-fcharnberf, .means :operable tofcommence the' delivery 'fot cornto the-collectionchamber byY said floinfv creating` means,l -ai-it'o'mat-,icI control mear-1s ieper-able :to: automatically finterruptsaiddeliveryatter xa 'period ysucierzlt -toll :thercollec-v tionf chamber'wv-ith=corn,l anddispensing means therinoperable:itof-discharge` thewcorn from.2the collectonvchaniber while: they delivery ofccorn totthecollection chamber isstopped, -said collection chamber f larieldispensing.' means#being-gconstructed to retain the transferred corna-within: theecollection chamber `during .saidl delivery of corn to-.the-- collectionl chamber.

10. 'A popcorn dispenserYcernprisingsaA housing, a rstorage.l 'chamber within the .housing l.for conf taining;l popcorn to 4be`clispensed, fan overflow Y coli lection chamber carried-by the housing adapted to Jco11itain--apredetermined Vquantity -of vpopcorn and ,toeoveriiewsdownwardlywany corn received ira-excess `ofAVA said quantity, means -for creating. a now otfair inthe housing, means-for entraining cornfnfromthe storage-.chamber in said flow .of airv and then directing the .entrainecl 'corniirto the collection chamber, means operable. t'cor'nmence the 'delivery' of.' corn to the .collection chamber by. said flow creating means', control meansilinclding a timer automaticalliloperabl'e tof-interrupt said delivery after a period suicie'nt to 'llthe .collection chamber 4Witrcorin, and dispensingmeans then operable to, discharge 'the corn" from the'V collection" chamber while *the delivery" ofl -'cornY to the `collection' clr'a'rnberuis stopped said 'collection chamber and Jdispensing means :bei-ng constructed f' tof-retain-the f'transe frredcorn withinth'e collection chamber daring said fdeliierylfofifcoifn tovfthe Ycc'xlleftion chamber,

1 Iii yAfspopcornfso'lispenser comprisinga' housing, alstorage chamber within theehousingslfcr-fcone taining popcorn to be dispensedrawcollection chamber carried by the housing, means for creating a ow of air in the housing, means for entraining corn from the storage chamber in said flow of air and directing the corn thus entrained into the collection chamber, means operable to energize said air flow creating means, automatic control mechanism operable to automatically (ie-energize said flow creating means after its energization for a period suiiicient to deliver a predetermined quantity of corn to the collection l0 chamber, and dispensing means then operable to discharge said quantity of corn from the collection chamber While the 110W creating means are deenergized, said collection chamber and dispensing means being constructed to retain the transferred corn within the collection chamber during said delivery of corn to the collection chamber.

12. A popcorn dispenser comprising a housing,

a storage chamber within the housing for containing popcorn to be dispensed, a collection chamber carried by the housing, means for creating a ow of air in the housing, means `for entraining corn from the storage chamber in said flow of air and directing the corn thus entrained interrupt said delivery after a a location accessible from the outside or the housing, said collection chamber and dispensing means being constructed to retain the transferred corn Within the collection chamber during said delivery of corn to the collection chamber.

13. A popcorn dispenser comprising a housingfm having a transparent Wall, a storage chamber within the housing for containing popcorn to be dispensed, an overflow collection chamber adapted to contain a predetermined quantity of ceived in excess of said quantity, means for creating va flow of air in the housing, means for entraining corn from the storage chamber in said flow of air and then directing the entrained corny along the inside of said transparent wall within sight from the outside of `the housing and then into Athe collection" chamber, coin responsive means operable to commence the delivery of corn popcorn and opening into thestorage chamber,,5 to overflow downwardly thereinto any corn re-"" to the collection chamber by said ovv creating means,'control means automatically operable to interrupt said delivery after a period sufficient to ll the collection chamber with corn, and means then operable to dispense the corn from the collection chamber to a location at the outside of the housing While the delivery of corn to the collection chamber is stopped.

14. A popcorn dispenser comprising a housing, a storage chamber Within the housing for containing popcorn to be dispensed, a collection chamber carried by the housing, means for creating a flow of air in the housing, means for entraining corn from the storage chamber in said now of air and directing the corn thus entrained into the collection chamber, means for controlling delivery of the corn to said collection chamber by the flow creating means, dispensing means for discharging the delivered corn from the collection chamber to a location accessible from the outside of the housing, said collection 75 chamber and dispensing means being constructed to retain the transferred corn within the collection chamber during said delivery of corn to the collection chamber, and a coin responsive unit controlling both said delivery controlling means and said dispensing means.

15. A popcorn dispenser comprising a housing, a storage chamber Within the housing for containing popcorn to be dispensed, a collection chamber carried by the housing, means for creating a flow of air in the housing, means for entraining corn 'from the storage chamber in said now of air and directing the corn thus entrained into the collection chamber, means within the housing for receiving a supply of containers, means for ejecting a single container from said supply, a coin responsive unit operable to energize and automatically deenergize said flow creating means and said container ejecting means in predetermined timed relation to deliver a charge of corn to the collection chamber and eject one container, and means for 'then dispensing the corn from the collection chamber to be received by the ejected container, said collection chamber and dispensing means being constructed to retain the transferred corn in the collection chamber during the delivery of said corn to the coliection chamber.

16. A popcorn dispenser comprising a housing having a transparent wall, a storage chamber Within the housing for containing popcorn to be dispensed, a collection chamber carried'by the housing, means for creating a flow of air in the housing, means for entraining corn from the storage chamber in said'flow of air and directing the corn thus entrained along the inside of said transparent Wall within sight from the outside of the housing and then into the collection chamber, means for controlling the delivery of corn to the collection chamber by said flow creating means, means within the housing for receiving a supply of containers, means for ejecting a single container from said supply, means for dispensing the delivered corn from the collection chamber to a location at the outside of the housing for reception in the ejected container, said collection chamber and dispensing means being constructed to retain the transferred corn within the collection chamber during said delivery of corn to the collection chamber, and a coin responsive unit controlling said delivery controlling means, said container -ejecting means and said dispensing means.

' 1'?. A popcorn dispenser comprising a housing, a storage chamberv within the housing for containing popcorn to be dispensed,` a collection chamber carried by the housing, means for creating a now of air in the housing, means for entraining corn from the storage chamber in said iiow of air and directing the corn thus entrained into the collection chamber, means carried by said housing for receiving a supply of containers, means for ejecting a single container from said supply, control mechanism operable to energize and automatically deenergize said flow lcreating means and said container ejetcing means in predetermined timed relation to deliver a l:barge of corn to the collection chamber and eject one container, and means for then dispensing said charge of corn from the collection chamber into the ejected container, said collection chamber and dispensing means being constructed to retain the transferred corn in the collection chamber during said delivery of corn to the collection 

